37%
25.09.2023
3.0 (OTG and flash support)
Video
Micro-HDMI
Power
5V, USB or 2.1mm barrel connector
Other
2 CSIs, 1 DSI
I2C, UART, SPI, ADC, PWM, GPIO
37%
02.08.2021
SGEMM
for N = [2, 4, 8, 16, 32, 64, 128, 256, 512, 1024, 2048, 4096, 8192]
A = single( rand(N,N) );
B = single( rand(N,N) );
start = clock();
C = A*B;
elapsedTime = etime(clock(), start
36%
17.02.2015
use generic-service
21 host_name w2k12srv
22 service_description Memory Usage
23 check_command check_nt!MEMUSE!-w 80 -c 90
24 }
25 define service{
26
36%
04.08.2020
on others' machines.
Benching C
With routines from Jens' book [9] and a bit of your own code, you can easily accomplish statistically weighted measurements of code performance in C similar to that provided
36%
17.02.2015
fecbc1a5ad080b0efd
74680c6e1f4b28fb2c7ff419872418-c7-x86_64-comps.xml.gz
/var/www/html/repodata/
03 [root@localhost ~]# gunzip /var/www/html/repodata/4b9ac2454536a901
fecbc1a5ad080b0efd74680c6e1f
36%
06.10.2019
.e., output all warnings) shows in Listing 4.
Listing 3
Splint Warnings
splint -strict example1.c
Splint 3.1.2 --- 11 May 2019
example1.c: (in function main)
example1.c:9:5: Format string
36%
07.11.2011
OpenMP brings the power of multiprocessing to your C, C++, and Fortran programs.
... A\n");
05 #pragma omp barrier
06 Calculationfunction(B,C);
07 printf("C was calculated from B\n");
08 }
The Calculationfunction()
line in this listing calculates the second argument ...
OpenMP brings the power of multiprocessing to your C, C++, and Fortran programs.
36%
09.10.2017
_string3= {9E 68 2B C2 99 6A 59 F7 F9 8D 30}
07 Conditions:
08 $test_string1 or $test_string2 or $test_string3
09 }
In Listing 2, I tell Yara to look for the strings that my
36%
30.01.2024
Dell Precision Workstation T7910
Power
1,300W
CPU
2x Intel Xeon Gold E5-2699 V4, 22 cores, 2.4GHz, 55MB of cache, LGA 2011-3
GPU, NPU
n/a*
Memory
36%
07.03.2019
acc parallel loop
{
for (j=0; j < m; j++) {
...
}
}
...
}
}
Table 3: Single-Directive Nested Loop
Fortran
C
!$acc parallel loop
do i=1,n
...
do
